DE2932242A1 - DEVICE FOR SPECIALIZING IN WEAVING CHAIRS - Google Patents

Description

The invention relates to a device for shedding in looms.

Devices for shedding in looms are devices that act on the heald frames set, according to which the weaving threads are moved and accordingly produce the desired fabric pattern.

For this purpose, various devices have already been developed for technical training, so-called dobby machines, Cam looms and a jacquard machine.

It is also known that the application of these devices to looms of the type in which weft thread transfer devices actually moved in the shed (such as weft thread

813

Bremen / Bremen Office: P.O. Box / P. O. Box 107127 HoBeraHee 32, D-2800 Bremen 1 Telephone: (0421) 34 90 71 Facsimile / Telecopier: Rank Xerox 400 Telegr. / Cables: diagram Bremen Telex: 244 958 bopatd

030008/0842

Accounts Bremen: Bremer Bank, Bremen

(Sort code 290 80010) 100 144 900

Deutsche Bank, Bremen

(Sort code 290 700 50) 1112002

PSchA Hamburg

(BLZ 200 100 20) 1260 83-202 Munich Office: P.O. Box / P. C. Box 14 0108 SchJotthauerstraße 3, D-8000 Munich 5 Telephone: (089) 65 23 21 Telecop./Telecop .: (089) 2215 69 R X. 400 Telegr. / Cables: Tetepatent Munich Telex: 523 937 jus d (code: fort »)

BOEHMKRT & BOEHMERT

Take-over gripper, etc.) and not shot through the compartment, such as with shuttles and projectiles, many Brings disadvantages with each known type of device.

It is therefore the object of the invention to find a more satisfactory solution for controlling the heald frame, which Avoids disadvantages of the prior art.

This object is achieved according to the invention by its drive shaft intermittently rotating with the aid of cams of the input drive shaft is drivable between this Input drive shaft and an output drive shaft lie, the input drive shaft with the general Movements of the loom on which the device is applied is connected.

The subject matter of the invention thus relates to devices with the aid of which interrupters allow the insertion of pauses in the Allow movement of the heald frames during a complete rotation of the loom shaft.

While in cam looms the forced movement of the heald shaft is already determined, as appropriate by the arranged cam profiles are to be achieved, a cam disk for the movement can by no means be used in Jaquard machines are used by contact stops, but it must, as usual, a connecting rod assembly via a connecting rod evoked movement can be used, whereby a non-stop movement is obtained which is unambiguous in this respect is detrimental as the constantly moving weaving threads tend to change direction in an undesirable manner to change the thread take-over looper. This causes errors in the weft exchange in the center of the shed.

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ORIGINAL

BOEHMHRT & BO £ HMERi

called out, operational unreliability and early closure of parts and sections that are in direct contact with the weft yarn.

For this reason it was assumed that the use of a breaker, by no means in a cam loom What would be essential would be to enable it to work in a jacquard machine during the rotary motion of one revolution to allow a complete movement of the contact stops, which is no longer so during a complete Rotation of the main shaft, but faster, for example, within an arc from 180 to 360 would take place, whereby movement breaks in the movement would be possible.

On the other hand, this breaker appears in the case of conventional ones Contact stops that are set in repeated movements by rocker arms and cutting edges, not by To be of interest, since the drive for the inner parts takes place with the help of side cams according to suitable laws.

Finally, the use of a breaker in the rotating type of contact stop is extremely important which the lifting and lowering of the heald frames takes place with the help of cams or eccentrics operated connections, the Clutches are controlled by the pattern paper of the fabric being manufactured and sometimes with the constantly rotating one Drive shaft are in contact and sometimes come free from this to assume a fixed position. This will be achieves the necessary pauses in the eccentric or cam movement during the continuous movement of the drive shaft, in order to mechanically engage and disengage the clutches correctly. It also enables the use of the breaker on the same type of rotating contact stops except the

030008/0842

BOEHMERl & BOEHMERT

necessary breaks for engaging and disengaging the clutches as well as corrections to the laws of motion of the eccentric (in particular by the fact that the undesired acceleration peaks that would otherwise affect the movements of the Heald frames could be reduced), thereby providing the same advantages as above for the Jaguard machines described, achieved.

For these reasons, it can be assumed that the use of an interrupter for the rotating movement of the Drive shaft in looms wide distribution and interesting fields of application made possible by designers and users can be further developed and specified,

A device according to the invention for shedding in looms is essentially characterized in that its drive shaft is moved intermittently by means of a cam breaker member which is said between these Drive shaft and an input drive shaft associated with the general movement of the loom to which the device is applied is connected. This interrupter has a drive element, which consists of a cam disk with double Profile is shaped and attached to the continuously rotating input drive shaft, with a driven Element has two side-by-side sets of freely rotating feeler rollers that are in the same direction Angular distances on the flanged periphery of a collar or protrusion connected to the intermittently rotating drive shaft, with each of the cam profiles in constant contact with the at least is a role of the corresponding feeler roller set.

Further features and advantages of the invention emerge from the claims and from the following description in which an embodiment is explained with reference to the drawing. It shows:

030008/0842

BOE.4MERT & BOEHMEHT

Fig. 1 is a front view of the interrupter according to the invention;

Fig. 2 is an axially sectional view of the interrupter of Fig. 1; and

3 to 15 representations of the important working positions of the one shown in FIGS Interrupters in chronological order.

The device according to the invention for shedding in looms has a breaker for driving its parts, a preferred embodiment of this subject is shown in the drawings. The device for shedding in looms has one on the input shaft attached drive element 1, which is continuously constant by the movements of the loom on the the device according to the invention for shedding is applied, is driven in rotation; and still a driven one Element 3, which is attached to the output drive shaft 4, and at the same time the discontinuously operating drive shaft the device forms.

As shown in the drawing, the drive element 1 has a cam disk with two profiles 5 and 6, both of which have a circular arc section (ie with a constant radius of curvature) and a section with a variable curvature and radius of curvature. The driven element in turn has two side-by-side sets of sensing rollers 7, 9, and 13 and 8, 10, 12 and 14, which are freely rotatable equidistantly on the circumference of flanges 15, 16 and 17 of a sleeve or one Heel 18, which is attached to the output shaft 14, are attached. More precisely, the rollers 7, 9, 11 and 13 are arranged uniformly and alternate with the rollers 8, 10, 12 and 14.

030008/0842

ORIGfNAL INSPECTED

BOE.4MERT & BOEHMEKT

The two elements 1 and 3 are arbitrarily arranged so that the profile 5 of the former is constantly with at least one of the rollers 7, 9, 11 or 13 is in contact, while the profile 6 is constantly in contact with one of the rollers 8, 10, 12 or 14 is engaged. For this it is easy to understand that the rotation of the cam-bearing drive element 1, the roller-bearing, driven element caused to rotate when the Pühl rollers are the latter come into contact with the different curvatures of the cam profiles. The movement of the driven Element 3 and consequently the output drive shaft is accordingly interrupted as long as the Feeler roles are more constant in contact with the areas Curvature and radius of profiles 5 and 6 of the cam-bearing Drive element 1 are located. In Fig. 1, the device according to the invention is in the immobile state of Output drive shaft 4 shown. In fact, this corresponds to a slight rotation of the input drive shaft 2 in the clockwise direction no corresponding potentiation of the output drive shaft 4, since both the roller 7 in contact with the profile 5 and the roller 8 in contact with the profile 6 on the sections of the profiles run with a constant radius. On the other hand, if one considers the further rotation of the shaft 1 in the direction of the Arrow F represents, the roller 7 will at some point come into contact with the point or 'the tip H of the profile 5, moreover the roller 8 comes into contact with the tip or the point K of the profile 6, so with areas changing radius of these profiles. From now on, the profile 5 of the cam-bearing drive element 1 becomes the roller 7 move and rotate the collar or projection 18 and output drive shaft 4 accordingly, while the roller 8 simply runs over an area of the profile. Accordingly, the rotation of the axis occurs without

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τ- 6 -

ORIGINAL INSPECTED

BOEHMSRV & 3CEHMERT

• J-

any backlash with the greatest precision.

If the rotation of the input drive shaft 2 is to be continued, the profile 6 comes into engagement at some point with one of the rollers of the driven element 3, while another roller simply runs on the profile 5. Downtime can just as well by further sections with a constant radius of curvature (not shown here) of the said profiles are controlled, and so on.

We do not consider it necessary to continue working together to describe between the profiles 5 and 6 of the cam occupied drive shaft with the rollers 7 to 14, neither the time sequence of the movements for the driven element 3 nor for the output drive shaft 4 by rotation of the cam-bearing drive element 1, nonetheless For example, such movements are detailed in a time sequence - beginning of FIG. 1 - in FIGS. 3 to 15 of the accompanying drawings, which does not require any further clarification due to what has been said above. It should only be noted that the position of FIG is again a rest position for the output drive shaft 4 and that a complete rotation of the input drive shaft 2 exactly half a turn of the output drive shaft

4 together with the desired inability to move, or a break, according to the single constant radius section of the profiles

5 and 6 of the cam-bearing drive element 1 corresponds. Accordingly, the interrupter shown and described here is a two-station interrupter, since two rotations of the input drive shaft 2 of one rotation in two clearly separated steps the output drive shaft 4 correspond. Nonetheless, the above description and the drawing are only exemplary of a preferred one

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BOEHMERl & BOEHMHKT

Embodiment of the invention and of course can the number of stations and the associated movements and interruption angles of the device as desired can be changed as mentioned above.

In particular, it should be pointed out that in an interrupter according to the invention the inability to move or Break angle can move between 0 and 180 °, in the preferred embodiment shown here is limited to about 90 °.

The mechanical solution for the interrupter differs fundamentally from the previous, conventional one Mechanism with interacting cams and rocker arms. In fact, profile 5 is neither the primary profile, The profile 6 is still to be regarded as a secondary or dependent profile, but rather the impact or drive part is located always on one side (in Fig. 1 on the right side) seen from the axis of rotation for the feeler rollers, during the Profile area on the other side (on the left) is the assigned profile.

This inventive cam and feeler roller arrangement can be compared with the development curves of the toothed profiles of a pair of gears. Indeed could also be said that the profiles 5 and 6 of the drive equipped with cams on an imaginary gear with work eight roles.

The features and advantages disclosed in the above description, the drawing and in the following claims the invention can be used both individually and in any combination for the implementation of the invention in their various embodiments may be essential.

030008/0842

BOEHMiSRT & ßOEHMEirr

• / Η ·

File; A 1503

BSZUGoZSICHENLISTS (LIST OF RSFSRSNCE NUMERALS)

1 drive shaft equipped with cams. drive shaft 1 2 shaft ? 3 driven element 4 wave of output. driven Auscianaswp]] ρ 4th 5 Cam profile, profile on 1 5 6 cam profile, profile on 1 6th 7 feeler rollers 7th 8 feeler rollers 8th 9 feeler rollers 9 10 feeler rollers 10 11 feeler rollers 11 12 feeler rollers 12th 13 feeler rollers 13th 14- feeler] 3 en 14- 15 flange on 18 15th 16 flange on 18 16 17 flange on 18 17th 18 cuff or front neck on 4 18th 19th 19th 20th 20th 21st 21st 22nd 22nd 23 23 24 24 25th 25th 26th 27 27 28 28 29 29 30 030008/0842 30th

ORIGINAL INSPECTED

R e r s e

it

Claims (5)

BOEHMERT & .3CEHMERT claims 1. Device for shedding in looms, characterized in that that its drive shaft (3) rotates intermittently with the aid of cams on the input drive shaft (1) is drivable, which lie between this input drive shaft (1) and an output drive shaft (4), wherein the input drive shaft (1) is connected to the general movements of the loom on which the device is applied is. 2. Apparatus according to claim 1, characterized in that the interrupter is a drive element, formed from a double profile (5, 6) formed cam disks, which is connected to the continuously rotating input drive shaft (1) and a driven element (4) , with two side-by-side sets or arrays of freely rotating rollers, angularly spaced around the periphery of the flange of a collar or protrusion connected to the intermittently rotating output drive shaft, each of the profiles (5, 6 ) is constantly in contact with a feeler roller (7 to 14) of the corresponding feeler roller set _t . 030008/0842 BOEHMERT & JOEHMERT '0C- 3. Apparatus according to claim 1 or 2, characterized in that the cam sections have constant curvature and radius of curvature. 4. Apparatus according to claim 3, characterized in that the sections with constant curvature and radius of curvature extend through an arc in the area between O to. 5. Apparatus according to claim 4, characterized in that the areas of constant curvature and radius of curvature of the profiles extend through about 90 °. 030008/0842 ORIGINAL INSPECTED